Efficient Probabilistic Computing with Stochastic Perovskite Nickelates

Tae Joon Park; Kemal Selcuk; Hai Tian Zhang; Sukriti Manna; Rohit Batra; Qi Wang; Haoming Yu; Navid Anjum Aadit; Subramanian K.R.S. Sankaranarayanan; Hua Zhou; Kerem Y. Camsari; Shriram Ramanathan

doi:10.1021/acs.nanolett.2c03223

Efficient Probabilistic Computing with Stochastic Perovskite Nickelates

Tae Joon Park^*
, Kemal Selcuk
, Hai Tian Zhang^*
, Sukriti Manna
, Rohit Batra
, Qi Wang
, Haoming Yu
, Navid Anjum Aadit
, Subramanian K.R.S. Sankaranarayanan
, Hua Zhou
, Kerem Y. Camsari^*
, Shriram Ramanathan^*

^*此作品的通讯作者

材料科学与工程学院

Purdue University
University of California at Berkeley
Argonne National Laboratory
University of Illinois at Chicago
Indian Institute of Technology Madras
University of California at Santa Barbara
United States Department of Energy

科研成果: 期刊稿件 › 文章 › 同行评审

29 引用（Scopus）

摘要

Probabilistic computing has emerged as a viable approach to solve hard optimization problems. Devices with inherent stochasticity can greatly simplify their implementation in electronic hardware. Here, we demonstrate intrinsic stochastic resistance switching controlled via electric fields in perovskite nickelates doped with hydrogen. The ability of hydrogen ions to reside in various metastable configurations in the lattice leads to a distribution of transport gaps. With experimentally characterized p-bits, a shared-synapse p-bit architecture demonstrates highly parallelized and energy-efficient solutions to optimization problems such as integer factorization and Boolean satisfiability. The results introduce perovskite nickelates as scalable potential candidates for probabilistic computing and showcase the potential of light-element dopants in next-generation correlated semiconductors.

源语言	英语
页（从-至）	8654-8661
页数	8
期刊	Nano Letters
卷	22
期	21
DOI	https://doi.org/10.1021/acs.nanolett.2c03223
出版状态	已出版 - 9 11月 2022

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abstract = "Probabilistic computing has emerged as a viable approach to solve hard optimization problems. Devices with inherent stochasticity can greatly simplify their implementation in electronic hardware. Here, we demonstrate intrinsic stochastic resistance switching controlled via electric fields in perovskite nickelates doped with hydrogen. The ability of hydrogen ions to reside in various metastable configurations in the lattice leads to a distribution of transport gaps. With experimentally characterized p-bits, a shared-synapse p-bit architecture demonstrates highly parallelized and energy-efficient solutions to optimization problems such as integer factorization and Boolean satisfiability. The results introduce perovskite nickelates as scalable potential candidates for probabilistic computing and showcase the potential of light-element dopants in next-generation correlated semiconductors.",

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AU - Park, Tae Joon

AU - Selcuk, Kemal

AU - Zhang, Hai Tian

AU - Manna, Sukriti

AU - Batra, Rohit

AU - Wang, Qi

AU - Yu, Haoming

AU - Aadit, Navid Anjum

AU - Sankaranarayanan, Subramanian K.R.S.

AU - Zhou, Hua

AU - Camsari, Kerem Y.

AU - Ramanathan, Shriram

PY - 2022/11/9

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N2 - Probabilistic computing has emerged as a viable approach to solve hard optimization problems. Devices with inherent stochasticity can greatly simplify their implementation in electronic hardware. Here, we demonstrate intrinsic stochastic resistance switching controlled via electric fields in perovskite nickelates doped with hydrogen. The ability of hydrogen ions to reside in various metastable configurations in the lattice leads to a distribution of transport gaps. With experimentally characterized p-bits, a shared-synapse p-bit architecture demonstrates highly parallelized and energy-efficient solutions to optimization problems such as integer factorization and Boolean satisfiability. The results introduce perovskite nickelates as scalable potential candidates for probabilistic computing and showcase the potential of light-element dopants in next-generation correlated semiconductors.

AB - Probabilistic computing has emerged as a viable approach to solve hard optimization problems. Devices with inherent stochasticity can greatly simplify their implementation in electronic hardware. Here, we demonstrate intrinsic stochastic resistance switching controlled via electric fields in perovskite nickelates doped with hydrogen. The ability of hydrogen ions to reside in various metastable configurations in the lattice leads to a distribution of transport gaps. With experimentally characterized p-bits, a shared-synapse p-bit architecture demonstrates highly parallelized and energy-efficient solutions to optimization problems such as integer factorization and Boolean satisfiability. The results introduce perovskite nickelates as scalable potential candidates for probabilistic computing and showcase the potential of light-element dopants in next-generation correlated semiconductors.

KW - complex oxide

KW - hydrogen

KW - metal−insulator transition

KW - neuromorphic computing

KW - perovskite nickelates

KW - probabilistic computing

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JO - Nano Letters

JF - Nano Letters

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ER -

Efficient Probabilistic Computing with Stochastic Perovskite Nickelates

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